An approximation method for numerical solution of multi-dimensional feedback delay fractional optimal control problems by Bernstein polynomials

An approximation method for numerical solution of multi-dimensional feedback delay fractional optimal control problems by Bernstein polynomials

In this paper we present a new method for solving fractional optimal control problems with delays in state and control. This method is based upon Bernstein polynomial basis and using feedback control. The main advantage of using feedback or closed-loop controls is that they can monitor their effect...

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Bibliographic Details
Main Authors: Elahe Safaie, Mohammadhadi Farahi
Format: Article
Language:English
Published: Ferdowsi University of Mashhad 2014-05-01
Series:Iranian Journal of Numerical Analysis and Optimization
Subjects:
delay fractional optimal control problem
caputo fractional derivative
bernstein polynomial
Online Access:https://ijnao.um.ac.ir/article_24429_c65817d47dbd9743232148d1fd0c944f.pdf
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spelling doaj-39642738caf045dba9337e948c6486ee2021-06-02T06:40:50ZengFerdowsi University of MashhadIranian Journal of Numerical Analysis and Optimization2423-69772423-69692014-05-0141779410.22067/ijnao.v4i1.2871124429An approximation method for numerical solution of multi-dimensional feedback delay fractional optimal control problems by Bernstein polynomialsElahe Safaie0Mohammadhadi Farahi1corresponding authorauthorIn this paper we present a new method for solving fractional optimal control problems with delays in state and control. This method is based upon Bernstein polynomial basis and using feedback control. The main advantage of using feedback or closed-loop controls is that they can monitor their effect on the system and modify the output accordingly. In this work, we use Bernstein polynomials to transform the fractional time-varying multi-dimensional optimal control system with both state and control delays, into an algabric system in terms of the Bernstein coefficients approximating state and control functions. We use Caputo derivative of degree 0 < a ≤ 1 as the fractional derivative in our work. Finally, some numerical examples are given to illustrate the effectiveness of this method.https://ijnao.um.ac.ir/article_24429_c65817d47dbd9743232148d1fd0c944f.pdfdelay fractional optimal control problemcaputo fractional derivativebernstein polynomial
collection DOAJ
language English
format Article
sources DOAJ
author Elahe Safaie
Mohammadhadi Farahi
spellingShingle Elahe Safaie
Mohammadhadi Farahi
An approximation method for numerical solution of multi-dimensional feedback delay fractional optimal control problems by Bernstein polynomials
Iranian Journal of Numerical Analysis and Optimization
delay fractional optimal control problem
caputo fractional derivative
bernstein polynomial
author_facet Elahe Safaie
Mohammadhadi Farahi
author_sort Elahe Safaie
title An approximation method for numerical solution of multi-dimensional feedback delay fractional optimal control problems by Bernstein polynomials
title_short An approximation method for numerical solution of multi-dimensional feedback delay fractional optimal control problems by Bernstein polynomials
title_full An approximation method for numerical solution of multi-dimensional feedback delay fractional optimal control problems by Bernstein polynomials
title_fullStr An approximation method for numerical solution of multi-dimensional feedback delay fractional optimal control problems by Bernstein polynomials
title_full_unstemmed An approximation method for numerical solution of multi-dimensional feedback delay fractional optimal control problems by Bernstein polynomials
title_sort approximation method for numerical solution of multi-dimensional feedback delay fractional optimal control problems by bernstein polynomials
publisher Ferdowsi University of Mashhad
series Iranian Journal of Numerical Analysis and Optimization
issn 2423-6977
2423-6969
publishDate 2014-05-01
description In this paper we present a new method for solving fractional optimal control problems with delays in state and control. This method is based upon Bernstein polynomial basis and using feedback control. The main advantage of using feedback or closed-loop controls is that they can monitor their effect on the system and modify the output accordingly. In this work, we use Bernstein polynomials to transform the fractional time-varying multi-dimensional optimal control system with both state and control delays, into an algabric system in terms of the Bernstein coefficients approximating state and control functions. We use Caputo derivative of degree 0 < a ≤ 1 as the fractional derivative in our work. Finally, some numerical examples are given to illustrate the effectiveness of this method.
topic delay fractional optimal control problem
caputo fractional derivative
bernstein polynomial
url https://ijnao.um.ac.ir/article_24429_c65817d47dbd9743232148d1fd0c944f.pdf
work_keys_str_mv AT elahesafaie anapproximationmethodfornumericalsolutionofmultidimensionalfeedbackdelayfractionaloptimalcontrolproblemsbybernsteinpolynomials
AT mohammadhadifarahi anapproximationmethodfornumericalsolutionofmultidimensionalfeedbackdelayfractionaloptimalcontrolproblemsbybernsteinpolynomials
AT elahesafaie approximationmethodfornumericalsolutionofmultidimensionalfeedbackdelayfractionaloptimalcontrolproblemsbybernsteinpolynomials
AT mohammadhadifarahi approximationmethodfornumericalsolutionofmultidimensionalfeedbackdelayfractionaloptimalcontrolproblemsbybernsteinpolynomials
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